Mercurial > sqlpython
view docs/source/capabilities.rst @ 331:a6cbcf24f148
oops, needed to fix resolve_many
author | Catherine Devlin <catherine.devlin@gmail.com> |
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date | Tue, 07 Apr 2009 13:15:07 -0400 |
parents | 3efffbf7481f |
children | 80a1976decf2 2fd766784ff2 |
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============================== SQLPython's extra capabilities ============================== For the most part, SQLPython simply duplicates SQL\*Plus's capabilites. Neatened output =============== When printing query results, sqlpython economizes on screen space by allocating only the width each column actually needs. Smart prompt ============ sqlpython automatically uses `username`@`instance`> as its prompt, helping avoid wrong-instance and wrong-user errors. Tab completion ============== When typing SQL commands, hitting `<TAB>` after entering part of an object or column name brings up a list of appropriate possibilities or, if there is only one possibility, fills in the rest of the name. This feature is not yet very reliable, but can save typing. Scripting ========= Like SQL\*Plus, sqlpython can run scripts (text files with series of SQL and sqlpython commands) with `@/path/to/script.sql` or (for online scripts) `@http://scripthost/scriptlibrary/script.sql`. History ======= The up- and down-arrow keys allow you to scroll through the lines entered so far in your sqlpython session. Commands are also entered into a command history. history *or* hi List entire command history list *or* li List only last command hi `<N>` List command number <N> from history. hi `<N>-`, hi `-<N>` List commands from <N> onward, or up to <N> hi `<str>` Lists commands that include the string <str> hi `/<regex>/` Lists commands that match the regular expression <regex> run, r, *or* `\\g` Run the most recent command again run `<N>` Run command <N> run `<str>`, run `/<regex>/` Run command matching <str> or <regex> (as for `history`) - if multiple items would match, run most recent Special I/O destinations ======================== Much as in a UNIX shell, you can follow a command with a special output destination. `> {filename}` sends the output to a file. This is more convenient than SQL\*Plus's SPOOL {filename}... SPOOL OFF (though you can use those as well). `>` alone (no filename) sends the output to the paste buffer. `|` pipes the output to an operating-system command. When `< {filename}` is included in your command, it is replaced with the contents of {filename} before the command is run. Examples:: Need examples!!!! Special output formats ====================== By replacing the `;` that terminates a SELECT statement with a backslash-character sequence, you can get output in a number of useful formats. The `terminators` command lists them, for your convenience. ========== ======================== ================================ terminator format Useful for ========== ======================== ================================ ; standard Oracle format \\c CSV (with headings) sending to spreadsheets \\C CSV (no headings) \\g list wide output with linewraps \\G aligned list \\h HTML table web reports \\i INSERT statements copying to other instances \\j JSON \\r ReStructured Text inclusion in documentation \\s CSV (with headings) \\S CSV (no headings) \\t transposed "wide" tables like v$database \\x XML \\l line plot, with markers \\L scatter plot (no lines) \\b bar graph \\p pie chart ========== ======================== ================================ Most of these output formats are even more useful when combined with special output destinations. For example, `SELECT * FROM party\\h > /var/www/party_report.html` could create an HTML report in the webserver's documents directory, ready to serve. UNIX-like commands ================== Many sqlpython commands allow you to act as though the database objects were files in a UNIX filesystem. Many of the commands also accept flags to modify their behavior. ls `{object type/object name, with wildcards}` Lists objects from the data dictionaries, as though they were in a *object_type*/*object_name* directory structure. Thus, `ls view/\*` lists all the user's views. Calling with no argument is equivalent to `ls *`. Options:: -l, --long long descriptions -a, --all all schemas' objects (otherwise, you only get your own) -t, --timesort Sort by last_ddl_time -r, --reverse Reverse order while sorting `ls -lt *;10` lists the ten items with the most recent last_ddl_time; this can be a good way to answer the question, "What was I working on?" cat `{remainder of query}` Shorthand for "SELECT * FROM". Can be combined with anything else that fits into a SELECT statement (WHERE, ORDER BY, etc.) grep `{target}` `{table}` `[{table2,...}]` Equivalent to SELECT * FROM {table} WHERE *any column* LIKE '%{target}%'. Useful when you don't know, don't remember, or don't care which column a value may be found in. Options:: -i, --ignore-case Case-insensitive search find -c {target}, find -t {column} Lists all tables or columns whose names contain {target}. More convenient than querying user_tab_columns/all_tab_columns or user_tables/all_tables. Options:: -a Find all objects (not just my own) Data dictionary exploration =========================== refs `{table_name}` Lists all foreign key constraints on the table or referring to the table. deps `{object_name}` Lists all objects dependent upon the named object. comments `{table_name}` Prints comments on a table and its columns. PL/SQL source code ================== pull {object_name} Displays the PL/SQL source code for {object_name}. Options: -d, --dump dump results to files (object_type/object_name.sql) -f, --full get dependent objects as well -a, --all all schemas' objects bzr, git, hg `{object_name}` Dump source code to files, as `pull -f`, but also creates or commits to a repository of the appropriate distributed version control system (Bazaar, Git, or Mercurial, respectively). find `{target}` Lists all PL/SQL objects whose source code contains the {target} string. Always case-insensitive. Options:: -a Search all PL/SQL objects (not just my own) PostgreSQL-like shortcuts ========================= psql, the command-line client for the open-source database `PostgreSQL <http://www.postgresql.org/>`_ uses a number of backslash-character sequences as convenient shortcuts. sqlpython steals many of them. ===== =================== \\c connect \\d desc \\e edit \\g run \\h help \\i load \\o spool \\p list \\q quit \\w save \\db _dir_tablespaces \\dd comments \\dn _dir_schemas \\dt _dir_tables \\dv _dir_views \\di _dir_indexes \\? help psql ===== =================== Bind variables ============== Bind variables work in sqlpython as they do in SQL\*Plus, but they are set dynamically; there is no need to declare them before use. The syntax for setting them is more permissive than in SQL\*Plus; all these are recognized:: exec :mybind := 'value' exec :mybind = 'value' :mybind := 'value' :mybind = 'value' The current values of all bind variables can be viewed with the `print` command. The `bind` command creates and populates bind variables for the final row of the most recent SELECT statement executed; each column name is used as a bind variable, which is filled with the value. `bind -r {rownumber}` does the same, but fills from row {rownumber} instead of from the final row (row numbers begin at 0 for this command). When the `autobind` sqlpython parameter is True, a `bind` statement is issued automatically after every query that returns exactly one row. Bind variables are available from within Python as a dictionary named `binds` (see Python). Substitution variables ====================== Substitution variables ("&" variables) work much as they do in SQL\*Plus. As in SQL\*Plus, the `scan` parameter determines whether queries are scanned to replace substitution variables. Unlike SQL\*Plus, sqlpython knows how annoying it is to hit a substitution variable you didn't expect, so entering "SET SCAN OFF" when prompted for a substitution variable actually aborts the substitution process. Wild SQL ======== Wild SQL is a nonstandard SQL feature that must be enabled with `set wildsql on`. When it is enabled, column names in a SELECT statement do not need to be explicitly typed; they can be specified with special Wild SQL symbols: wildcards (`*`, `%`, `_`); column numbers (`#{N}`); and NOT-style exclusion (`!`). The symbols can even be combined. :: jrrt@orcl> cat party NAME STR INT WIS DEX CON CHA ------- --- --- --- --- --- --- Frodo 8 14 16 15 14 16 Gimli 17 12 10 11 17 11 Legolas 13 15 14 18 15 17 Sam 11 9 14 11 16 13 4 rows selected. jrrt@orcl> set wild on wildsql - was: False now: True jrrt@orcl> select *i* from party; INT WIS --- --- 14 16 12 10 15 14 9 14 4 rows selected. jrrt@orcl> select #1, #5 from party; NAME DEX ------- --- Frodo 15 Gimli 11 Legolas 18 Sam 11 4 rows selected. jrrt@orcl> select !str from party; NAME INT WIS DEX CON CHA ------- --- --- --- --- --- Frodo 14 16 15 14 16 Gimli 12 10 11 17 11 Legolas 15 14 18 15 17 Sam 9 14 11 16 13 4 rows selected. jrrt@orcl> select n*, !#3, !c* from party; NAME STR WIS DEX ------- --- --- --- Frodo 8 16 15 Gimli 17 10 11 Legolas 13 14 18 Sam 11 14 11 4 rows selected. Wild SQL symbols only work in the first SELECT statement in a query; they do not work in subqueries, subsequent UNIONed queries, etc. Python ====== The `py` command allows the user to execute Python commands, either one-at-a-time (with `py {command}`) or in an interactive environment (beginning with a bare `py` statement, and continuing until Ctrl-D, `quit()`, or `exit()` is entered). A history of result sets from each query is exposed to the python session as the list `r`; the most recent result set is `r[-1]`. Each row can be references as a tuple, or as an object with an attribute for each column. Bind variables are exposed as the dictionary `binds`. Each row from each result set has a .bind() method that fills a bind varible for each column with that row's value. Resultsets in `r` are read-only, but `binds` can be written as well as read, and will be working bind variables in the SQL environment. SQL and sqlpython commands can be issued from the Python environment with `sql("{your SQL}")`. All variables are retained each time the python environment is entered (whether interactively, or with one-line `py` statements). :: 0:testschema@orcl> select title, author from play; TITLE AUTHOR --------------- ----------- Timon of Athens Shakespeare Twelfth Night Shakespeare The Tempest Shakespeare Agamemnon Aeschylus 4 rows selected. 0:testschema@orcl> py import urllib 0:testschema@orcl> py current_season = urllib.urlopen('http://cincyshakes.com/').read() 0:testschema@orcl> py Python 2.5.2 (r252:60911, Jul 31 2008, 17:28:52) [GCC 4.2.3 (Ubuntu 4.2.3-2ubuntu7)] on linux2 Type "help", "copyright", "credits" or "license" for more information. (mysqlpy) py <command>: Executes a Python command. py: Enters interactive Python mode; end with `Ctrl-D`, `quit()`, or 'exit`. Past SELECT results are exposed as list `r`; most recent resultset is `r[-1]`. SQL bind, substitution variables are exposed as `binds`, `substs`. SQL and sqlpython commands can be issued with sql("your non-python command here"). >>> r[-1] [('Timon of Athens', 'Shakespeare'), ('Twelfth Night', 'Shakespeare'), ('The Tempest', 'Shakespeare'), ('Agamemnon', 'Aeschylus')] >>> r[-1][0][0] 'Timon of Athens' >>> for row in r[-1]: ... print "%s, by %s" % (row.title, row.author) ... Timon of Athens, by Shakespeare Twelfth Night, by Shakespeare The Tempest, by Shakespeare Agamemnon, by Aeschylus >>> [row.title for row in r[-1] if row.title in current_season] ['Timon of Athens', 'Twelfth Night'] >>> binds['author'] = 'Shakespeare' >>> query = "SELECT title FROM play WHERE author = :author" >>> sql(query) TITLE --------------- Timon of Athens Twelfth Night The Tempest 3 rows selected. >>> r[-1] [('Timon of Athens',), ('Twelfth Night',), ('The Tempest',)] >>> r[-1][0] ('Timon of Athens',) >>> r[-1][0].bind() >>> binds['title'] 'Timon of Athens' >>> quit() 0:testschema@orcl> select title, author from play where title = :title; TITLE AUTHOR --------------- ----------- Timon of Athens Shakespeare 1 row selected. Parameters ========== Several parameters control the behavior of sqlpython itself. ===================== =================================================== =============== parameter effect default ===================== =================================================== =============== autobind When True, single-row queries automatically `bind` False commit_on_exit Automatically commits work at end of session True continuation_prompt Prompt for second line and onward of long statement > default_file_name The file opened by `edit`, if not specified afiedt.buf echo Echo command entered before executing False editor Text editor invoked by `edit`. varies heading Print column names along with results True maxfetch Maximum number of rows to return from any query 1000 maxtselctrows Maximum # of rows from a tselect or \\n query 10 prompt Probably unwise to change user@instance> scan Interpret & as indicating substitution variables True serveroutput Print DBMS_OUTPUT.PUT_LINE results True sql_echo Print text of "behind-the-scenes" queries False timeout In seconds 30 timing Print time for each command to execute False wildsql Accept *, %, #, and ! in column names False ===================== =================================================== =============== The user can change these with the `set {paramname} {new-value}` statement. The True/False parameters accept new values permissively, recognizing "True", "False", "T", "F", "yes", "no", "on", "off", etc. `set` and `show` both list the current values of the sqlpython parameters. They also recognize any abbreviated parameter name, so long as it is long enough to be unique. That is, `show maxf` is recognized as `show maxfetch`, but `show max` is too short to distinguish between `maxfetch` and `maxtselctrows`. `show parameter {param}` shows current Oracle parameters (from v$parameter), as it does in SQL\*Plus. Tuning ====== In sqlpython, `explain {SQL ID}` shows the execution plan for the SQL statement with the given ID. If SQL ID is omitted, it defaults to the most recent SQL executed. (This is not necessarily the last statement `EXPLAIN PLAN` was issued against.) Other specialized sqlpython tuning commands include: load Displays OS load on cluster nodes (10gRAC) longops Displays long-running operations sessinfo Reports session info for the given sid, extended to RAC with gv$ top, top9i Displays active sessions